EP2407397A1

EP2407397A1 - Bridge breaker

Info

Publication number: EP2407397A1
Application number: EP10181545A
Authority: EP
Inventors: Shuichi Okabe
Original assignee: Individual
Current assignee: Individual
Priority date: 2010-07-16
Filing date: 2010-09-29
Publication date: 2012-01-18
Anticipated expiration: 2030-09-29
Also published as: EP2407397B1; JP2012020861A; US8439236B2; US20120012619A1

Abstract

A bridge breaker has balls (4) between a casing (1) and an inner ring (2) for supporting the inner ring (2) such that it is rotatable without independent ball bearings for easiness and downsizing of costs. There are provided seal rings (6, 7) having square-shaped sections and being laid on same horizontal-level surfaces of the casing (1) and the inner ring (2) and being depressed by air pressure for preventing powder from entering into the device and frequent exchange of packing. There is also provided a blade (3) being fixed to the inner ring (2) by a connection through a shaft (3a) and a hole (2c) for preventing trouble caused by looseness or releasing of connecting bolts.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a bridge breaker for a powder or particle (hereinafter referred to as powder) discharging system from a receiving hopper directly to the outside or to a downstream equipment. This device is usually provided at the bottom of the hopper and used to break a plugging of powder (hereinafter referred to as a bridge) occurring at the cone part of the hopper through rotating a blade by means of a motor.
It is known to provide a vibrator or a knocker at the cone part of the hopper for breaking a bridge. But vibration or shock sometimes cannot dissolve a bridge, because the powder is packed by the vibration or the shock, which makes the situation worse. Moreover, the wall of the hopper is damaged by repeated stress through the force of the vibrator or the knocker for a long period of operation. Furthermore, in the case of a knocker, there is large noise.
Air injection into the hopper is another way for breaking a bridge. But in the case of a small amount of air, the bridge cannot be dissolved, and in the case of a large amount of air, releasing the air from hopper is difficult because the air contains a lot of powder, and the costs for air consumption are high.
The present invention relates to a bridge breaker which can dissolve a bridge certainly without problems of damage to the hopper, large noise and high costs for injection air.

2. Description of the Related Art

The device as shown in Fig.1 is conventionally used as a bridge breaker.
In this figure, the upper part of the device is connected by means of bolts to a flange C of a hopper A having a cone B, and the lower part of the device is connected to a flange D of a downstream equipment. The clearance between the flange C and the device is sealed by a packing E, and the clearance between the flange D and the device is sealed by a packing F.
A casing 1 having an upper flange 1a, a lower flange 1b and a gear box 1c is divided along a separation line (not shown) into an upper part and a lower part to enable assembling of inside parts between them. There are also connecting bolts which are not shown in Fig. 1.
An inner ring 2 having a flange 2a is enclosed by the casing 1 and connected through a ball bearing 4 with bolts 5 to the casing 1 such that it is rotatable.
A blade 3 has an upper part 3a which inclines in parallel to a surface of the cone B and a lower part 3b which is vertical. The lower part 3b is connected to the inner ring 2 by means of bolts 3c.
Packings 6 and 7, such as an oil seal or a grand packing, are provided between the casing 1 and the inner ring 2 at the top part and at the bottom part, respectively, to prevent entering of powder into the device.
A chain sprocket 8 is connected to the flange 2a of the inner ring 2 and the ball bearing 4 by means of bolts 11.
A geared motor 12 is connected with the gear box 1 c by means of bolts, and an output shaft 12a is inserted into the gear box 1c.
A chain sprocket 10 is fitted on the output shaft 12a of the geared motor 12 by key and splines.
A link chain 9 ties the chain sprocket 8 and the chain sprocket 10 to transfer a rotating torque of the geared motor 12 to the inner ring 2.
A bridge of powder is broken by rotating the blade 3, even at a slow rotating speed, such as 0.5 - 3 rpm.
However, there are problems with regard to a conventional bridge breaker.

1) The ball bearing 4 receives a heavy axial force by the gravity of the powder, and a deformation of the ball bearing 4 causes difficulties, such as a stop of operation or an early wearing of the ball bearing. So, the housings of the ball bearing 4 should have enough sturdiness, or should be fitted to the casing 1 with a severe tolerance to utilize the sturdiness of the casing 1 and the inner ring 2.
However because of its large diameter, such as over 200 mm, the fabrication of the ball bearing 4 and the machining of the fitted parts between the ball bearing 4 and the casing 1 and between the ball bearing 4 and the inner ring 2 are difficult. Thus, machining is costly and time-consuming.
2) The packings 6, 7 suffer severe abrasion and quick wearing because of the existence of the powder. The touching parts of the packings 6, 7 are worn within a few months of operation, and the powder enters into the inside of the device; finally, the operation cannot be continued.
3) The bolts 3c to fix the blade 3 to the inner ring 2 are loosened easily, and an additional fastening of the bolts 3c is impossible during operation. Once the bolts 3c are released, they cause trouble of contamination with powder and damage to downstream equipment.

Furthermore sometimes a screw of the bolts 3c is stuck in screwed holes; in this case a lot of repair work is necessary.

SUMMARY OF THE INVENTION

The present invention has the object of providing a bridge breaker that can solve the essential problems of a conventional bridge breaker as described above.
The present invention is a bridge breaker consisting of a casing, a rotatable inner ring, a blade, balls between the casing and the inner ring, a plug, seal rings between the casing and the inner ring, middle gears, a drive gear and a geared motor.
In order to attain the above object, according to a first aspect of the present invention, there is provided an inner ring supported such that it is rotatable by balls and grooves on the outside surface of the inner ring and on the inside surface of the casing, and a hole for charging the balls from the outside of the casing to these grooves during assembly, and a plug to close this hole.
According to a second aspect of the present invention, there are provided seal rings having a square-shaped section at the clearances between the inner ring and the casing, and touching with their lower-side surface horizontal surfaces of the inner ring and the casing, and depressed by the pressure of purge air introduced into the device.
According to a third aspect of the present invention, there is provided a blade having a machined shaft inserted into the hole of the inner ring.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 2, 3, 4 and 5 show the main parts and the layout of the present invention.
Fig. 2 is a vertical-section view;
Fig. 3 is a horizontal-section view;
Fig. 4 shows the layout of the seal rings in detail; and
Fig.5 shows the layout of the connection between the blade and the inner ring.

Fig. 2, 3, 4 and 5 show:

a hopper A to which this device is connected, having a cone B and a flange C, and
a flange D of a downstream device to which this device is connected, and
packings E, F for connecting the flange surfaces of this device, and
a casing 1 consisting of an upper casing and a lower casing connected to each other
along a separation line (not shown) by means of bolts, which are not shown in Fig. 2, and having an upper flange 1a and a lower flange 1 b and a gear box 1c, and having a groove 1 d on the inner surface and a hole 1 e between the outer surface and the groove 1d, and
an inner ring 2 enclosed in the casing 1 and having a gear 2a, an overhang part 2b, a hole 2c, and a groove 2e on the outer surface, and
a blade 3 consisting of an upper blade 3a, a vertical part 3b and a shaft 3c, and vertical ribs 3d and 3e as shown in Fig. 5, and
balls 4 charged in the grooves 1 d and 2e, and
a screwed plug 5 fitted to the hole 1 e, and
seal rings 6 and 7 having square-shaped sections and being made of PTFE or other materials, and
middle gears 8 and 9, and
a drive gear 10, and
shafts 11 and 12 for supporting the middle gears 8 and 9, and
a geared motor 13 having an output shaft 13a.

As shown in Fig 4, a contacting surface 1f of the casing 1 and a contacting surface 2f of the inner ring 2 to the seal ring 6 are on the same horizontal level.
And a purge air hole 1 g is provided between a circumferential space 1 h and the outer surface of the upper flange 1 a. As for the seal ring 7, the construction is the same as that of the seal ring 6.
As shown in Fig. 5, for fixing the blade 3 to the inner ring 2, the shaft 3c of the blade 3 is inserted into the hole 2c of the inner ring 2, and the vertical ribs 3d and 3e of the blade 3 are inserted into the groove 2d of the inner ring 2.

DETAILED DESCRIPTION OF THE PREFFERRED EMBODIMENT

In order to attain the above object, according to a first aspect of the present invention, there is provided an inner ring supported such that it is rotatable by balls and grooves on the outside surface of inner ring and on the inside surface of the casing, and a hole for charging the balls from the outside of the casing to these grooves during assembly, and a plug to close this hole.
The casing 1 and the inner ring 2 have enough sturdiness, compared with an independent ball bearing, to support the load for the balls 4 during operation and also the load by a clamping force during machining. On the other hand, a small clearance, such as 0.1 mm, between the balls 4 and the grooves 1 d, 2e is necessary to allow a smooth moving of the balls even in case of an independent ball bearing. This means that the machining of the grooves 1 d and 2e is easier than fitting an independent ball bearing to the casing 1 and the inner ring 2.
Therefore, machining is less costly and less difficult.
In order to attain the above object, according to a second aspect of the present invention, there are provided seal rings having a square-shaped section at the clearances between the inner ring and the casing, and touching with their lower-side surface horizontal surfaces of the inner ring and the casing, and depressed by the pressure of air introduced into device.
Air or other gas, such as nitrogen, having a higher pressure than the inner pressure of this device is introduced from the outside of the casing 1 through the hole 1 g to the circumferential space 1 h, and depress the seal ring 6 to the horizontal surfaces 1f and 2f. There might be a small clearance between the seal ring 6 and the horizontal surfaces 1f and 2f caused by an allowable tolerance during fabrication, such as 0.1 mm.
Air passes through this clearance with a high speed of more than 10 m/second, and powder cannot enter into this clearance from the inside of this device against the air flow. Due to the fact that a material having a low abrasion factor, such as PTFE, is used for the seal rings and that the depressing force exerted on the seal ring 6 through the air is low, wearing of the seal rings is much reduced and almost negligible. The situation of the seal ring 7 is same as that of the seal ring 6.
In order to attain the above object, according to a third aspect of the present invention, there is provided a blade 3 having a machined shaft inserted into the hole 2c of the inner ring 2.
The blade 3 cannot be raised up because of its gravity, and the blade 3 receives a downward force by the powder in the hopper A due to the inclination of the blade 3. The vertical ribs 3d, 3e inserted into the groove 2d prevent a turning of the blade 3. Therefore bolts are not necessary to fix the blade 3 and there is no risk that bolts are loosened or released during operation or screws of bolts are stuck in a screwed hole during disassembling of the blade 3 from the inner ring 2.
The connection by the shaft and the hole has much sturdiness and less looseness than a connection by bolts. So there is no risk of trouble when fixing the blade.

Claims

A bridge breaker comprising
- a casing (1),

- an inner ring (2) enclosed in the casing (1) such that it is rotatable,

- a blade (3) detachably attached on the inner ring (2),

- balls (4) to support the inner ring (2) such that it is rotatable,

- seal rings (6, 7) between the casing (1) and the inner ring (2),

- a geared motor (13), gears (8, 9; 10) and shafts (11, 12; 13a), or link chains and sprockets, to turn the inner ring (2),
characterised in that
- the inner ring (2) is rotatably supported by the balls (4) and grooves (1 d, 2e) on the outside surface of the inner ring (2) and on the inside surface of the casing (1), wherein a hole (1 e) is provided for charging the balls (4) from the outside of the casing (1) to the grooves (1 d, 2e) during assembly, and a plug (5) is provided to close the hole.
The bridge breaker according to claim 1, wherein the seal rings (6, 7) have square-shaped sections at the clearances between the inner ring (2) and the casing (1), and touch with their lower-side surfaces horizontal surfaces of the inner ring (2) and the casing (1), and are depressed by the pressure of air or other gas introduced into the device.
The bridge breaker according to claim 1 or 2, wherein the blade (3) has a machined shaft (3a) inserted into a hole (2c) of the inner ring (2).